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A Phase I/II study of an in-situ therapeutic cancer vaccine. Vaccines contain a source of antigen and and adjuvant. In this study the source of tumor antigen comes from the killing of a selected tumor by cryoablation (killing using extreme cold) and the adjuvant is intentionally mis-matched immune cells (AlloStim-TM) engineered to produce inflammatory cytokines.

This is a Phase I/II clinical study to investigate the optimal protocol and indication for creating a personalized anti-tumor vaccine within the body of patients with cancer. The aim of the study is to evaluate the safety of administration and anti-tumor effect of a vaccine protocol that has three separate steps. Cancer patients generally present with an immune response to cancer biased to a Th2 response, while a Th1 response is considered necessary for mediating anti-tumor immunity. The first step of the study consists of multiple intradermal priming doses of AlloStimTM. The aim of this step is to create Th1 immunity to the alloantigens in AlloStimTM, thus increasing the number of Th1 cells in circulation. The second step of the protocol involves the cryoablation of a selected tumor lesion followed by an intratumoral AlloStimTM injection. The aim of this step is to generate tumor-specific CTL killer cells in the circulation. The final step is an intravenous infusion of AlloStimTM. The aim of this step is to activate circulating Th1 cells, killer cells, and natural killer cells. The further aim of this step is to create an inflammatory environment that can break-down the ability of the tumor to avoid an anti-tumor immune response. In patients with partial responses and recurrence of disease, additional intravenous "booster" infusions are utilized to reactivate the circulating immune cells.

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Measurable disease determined upon review of abdominal and/or chest CT scan within 60 days of evaluation for study inclusion with a target tumor lesion for cryoablation or alcohol ablation located in liver, kidney, bone, lung, adrenal, pancreas, lymph node, skin, neck or prostate deemed to be accessible for percutaneous access or carcinomatosis or malignant ascites or malignant pleural effusion.

When applicable, acceptable cryoablation procedure technique risk: the target tumor for ablation must have adequate distance from adjacent vasculature and other organs to permit safe application of cryoprobe (generally, more than a 2.5cm clearance of the cryoprobe from any vital structure such as the bowel, inferior vena cava, or aorta). The safety assessment of the cryoprobe placement will be made an attending radiologist based on imaging studies.

Life expectancy >90 days

No bevacizumab (Avastin®) within 6 weeks of planned cryoablation procedure

ECOG status 0-2

No concurrent medication known to interfere with platelet function or coagulation (e.g., aspirin, ibuprofen, clopidogrel, or warfarin) unless such medications can be discontinued for an appropriate time period based on the drug half-life and known activity (e.g., aspirin for 7 days) prior to cryoablation procedure

o INR correctable to ≤ 1.5 or a PT/PTT correctable to normal limits. Patients receiving anti-coagulation treatment with an agent such as warfarin or heparin may be allowed to participate. For patients on warfarin, the INR should be monitored weekly prior to the cryoablation day to assure INR is stable. However, heparin or warfarin must be withheld prior to cryoablation such that the above criteria are met.